Bottom ScienceParticle Physics
Introduction
- Introduction to Particle Physics
- Need of High Energy Physics
- Four Fundamental Forces
- Units in High Energy Physics
- Natural System of Units
- Particle Accelerators & Types
- 1st, 2nd, and 3rd Generation Particles
- Center of Mass Frame vs. Laboratory Frame
- Gravitational vs Nuclear Binding Energy (Mass Defect)
Invariance Principles & Conservation Laws
- Symmetries & Conservation Laws
- Continuous Transformations
- Discrete Transformation
- Parity Transformation
- Wu’s Experiment & Parity Violation
- Feynman Rules for Quantum Electrodynamics (QED)
- Electron-Muon Scattering Amplitude (M) Calculation
- Electron-Positron Scattering Amplitude (M) Calculation
- SU(1), SU(2), SU(3) – Unitary Groups (QCD)
- More topics coming soon…
Problems
Particle physics is the study of elementary particles from which matter is made up and the interaction between them.
The rise of particle physics belongs to the year 1897 when J. J. Thomson discovered the electron, which enlighten the whole subatomic world. Previously, it was believed that atoms are indivisible, but after that many models proposed to show that there exist subatomic particles.
Particle Physics
Introduction
- Introduction to Particle Physics
- Need of High Energy Physics
- Four Fundamental Forces
- Units in High Energy Physics
- Natural System of Units
- Particle Accelerators & Types
- 1st, 2nd, and 3rd Generation Particles
- Center of Mass Frame vs. Laboratory Frame
- Gravitational vs Nuclear Binding Energy (Mass Defect)
Invariance Principles & Conservation Laws
- Symmetries & Conservation Laws
- Continuous Transformations
- Discrete Transformation
- Parity Transformation
- Wu’s Experiment & Parity Violation
- Feynman Rules for Quantum Electrodynamics (QED)
- Electron-Muon Scattering Amplitude (M) Calculation
- Electron-Positron Scattering Amplitude (M) Calculation
- SU(1), SU(2), SU(3) – Unitary Groups (QCD)
- More topics coming soon…
Problems
